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The Apache Commons Math project is a library of lightweight, self-contained mathematics and statistics components addressing the most common practical problems not immediately available in the Java programming language or commons-lang.

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/*
 * Licensed to the Apache Software Foundation (ASF) under one or more
 * contributor license agreements.  See the NOTICE file distributed with
 * this work for additional information regarding copyright ownership.
 * The ASF licenses this file to You under the Apache License, Version 2.0
 * (the "License"); you may not use this file except in compliance with
 * the License.  You may obtain a copy of the License at
 *
 *      http://www.apache.org/licenses/LICENSE-2.0
 *
 * Unless required by applicable law or agreed to in writing, software
 * distributed under the License is distributed on an "AS IS" BASIS,
 * WITHOUT WARRANTIES OR CONDITIONS OF ANY KIND, either express or implied.
 * See the License for the specific language governing permissions and
 * limitations under the License.
 */

package org.apache.commons.math3.analysis.solvers;

/**
 * Implements the Regula Falsi or False position method for
 * root-finding (approximating a zero of a univariate real function). It is a
 * modified {@link SecantSolver Secant} method.
 *
 * 

The Regula Falsi method is included for completeness, for * testing purposes, for educational purposes, for comparison to other * algorithms, etc. It is however not intended to be used * for actual problems, as one of the bounds often remains fixed, resulting * in very slow convergence. Instead, one of the well-known modified * Regula Falsi algorithms can be used ({@link IllinoisSolver * Illinois} or {@link PegasusSolver Pegasus}). These two * algorithms solve the fundamental issues of the original Regula * Falsi algorithm, and greatly out-performs it for most, if not all, * (practical) functions. * *

Unlike the Secant method, the Regula Falsi guarantees * convergence, by maintaining a bracketed solution. Note however, that due to * the finite/limited precision of Java's {@link Double double} type, which is * used in this implementation, the algorithm may get stuck in a situation * where it no longer makes any progress. Such cases are detected and result * in a {@code ConvergenceException} exception being thrown. In other words, * the algorithm theoretically guarantees convergence, but the implementation * does not.

* *

The Regula Falsi method assumes that the function is continuous, * but not necessarily smooth.

* *

Implementation based on the following article: M. Dowell and P. Jarratt, * A modified regula falsi method for computing the root of an * equation, BIT Numerical Mathematics, volume 11, number 2, * pages 168-174, Springer, 1971.

* * @since 3.0 */ public class RegulaFalsiSolver extends BaseSecantSolver { /** Construct a solver with default accuracy (1e-6). */ public RegulaFalsiSolver() { super(DEFAULT_ABSOLUTE_ACCURACY, Method.REGULA_FALSI); } /** * Construct a solver. * * @param absoluteAccuracy Absolute accuracy. */ public RegulaFalsiSolver(final double absoluteAccuracy) { super(absoluteAccuracy, Method.REGULA_FALSI); } /** * Construct a solver. * * @param relativeAccuracy Relative accuracy. * @param absoluteAccuracy Absolute accuracy. */ public RegulaFalsiSolver(final double relativeAccuracy, final double absoluteAccuracy) { super(relativeAccuracy, absoluteAccuracy, Method.REGULA_FALSI); } /** * Construct a solver. * * @param relativeAccuracy Relative accuracy. * @param absoluteAccuracy Absolute accuracy. * @param functionValueAccuracy Maximum function value error. */ public RegulaFalsiSolver(final double relativeAccuracy, final double absoluteAccuracy, final double functionValueAccuracy) { super(relativeAccuracy, absoluteAccuracy, functionValueAccuracy, Method.REGULA_FALSI); } }




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